Phys. Rev. A
 2016
DOI: 10.1103/physreva.94.062322
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Performance of dynamical decoupling in bosonic environments and under pulse-timing fluctuations

Wallace S. Teixeira
1
,
Kishore T. Kapale
2
,
Mauro Paternostro
3
et al.

Abstract: We study the suppression of qubit dephasing through Uhrig dynamical decoupling (UDD) in nontrivial environments modeled within the spin-boson formalism. In particular, we address the case of (i) a qubit coupled to a bosonic bath with power-law spectral density, and (ii) a qubit coupled to a single harmonic oscillator that dissipates energy into a bosonic bath, which embodies an example of a structured bath for the qubit. We then model the influence of random time jitter in the UDD protocol by sorting pulse-app… Show more

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“…(10). This protocol might find applications in the preservation of coherence in quantum memories for quantum computing [19,20].…”
mentioning
confidence: 99%

Pulse engineering for population control under dephasing and dissipation

Medina
1
,
Semião
2
2019
Phys. Rev. A
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29
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16
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“…(10). This protocol might find applications in the preservation of coherence in quantum memories for quantum computing [19,20].…”
mentioning
confidence: 99%

Pulse engineering for population control under dephasing and dissipation

Medina
1
,
Semião
2
2019
Phys. Rev. A
Self Cite
29
0
16
0
View full textAdd to dashboardCite
show abstract

Suppressing phase damping decoherence by periodical imperfect projective measurements

Liu
1
,
Zhang
2
,
Peng
3
et al. 2018
Automatica
4
0
2
0
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Dynamical chaotic phases and constrained quantum dynamics

Timpanaro
1
,
Wald
2
,
Semião
3
et al. 2019
Phys. Rev. A
9
0
8
0
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